| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 对准成象卷筒纸的方法和设备 | CN88109078 | 1988-10-05 | CN1034073A | 1989-07-19 | 杰克·比利; 戴维·A·鲍尔 |
| 本发明提供一种对成象卷筒纸(10)进行对准的方法和设备。成象纸由表面上敷有感光微囊的基底构成。感光微囊具有由感光成分和成色剂构成的内部相体。使成象纸在光化辐射下曝光以形成图象部分和边缘部分。使局部成象纸部分或者使局部边缘部分以外的全部面积在光化辐射源(44)下曝光以经受色调或映象的变化,从而形成对准标记(48),检测对准标记,并相应地完成对成象纸的加工。 | ||||||
| 2 | 卡打印系统和方法 | CN200380104747.1 | 2003-10-02 | CN1720482A | 2006-01-11 | D·W·哈亚斯; I·T·豪根; B·A·波森; R·J·恩内斯 |
| 本发明的卡打印系统包括一个卡盒子组件和一个打印机子组件。卡盒子组件封闭一叠水平放置的各已经供有光敏微囊的卡。打印机子组件对接卡盒子组件以从所述叠中得到一个卡。打印机子组件然后在得到的卡上的光敏微囊上形成一个潜像并且通过用显影器阵列向光敏微囊施加机械压力使该图像显影。显影阵列是一个内含数个弹簧加载的显影器球的块。 | ||||||
| 3 | 对准成象卷筒纸的方法和设备 | CN88109078 | 1988-10-05 | CN1021931C | 1993-08-25 | 杰克·比利; 戴维·A·鲍尔 |
| 本发明提供一种对成象卷筒纸(10)进行对准的方法和设备。成象纸由表面上敷有感光微囊的基底构成。感光微囊具有由感光成分和成色剂构成的内部相体。使成象纸在光化辐射下曝光以形成图象部分和边缘部分。使局部成象纸部分或者使局部边缘部分以外的全部面积在光化辐射源(44)下曝光以经受色调或映象的变化,从而形成对准标记(48),检测对准标记,并相应地完成对成象纸的加工。 | ||||||
| 4 | 이중스탬프에 의한 롤 임프린트 장치 | KR1020110023597 | 2011-03-16 | KR1020120105891A | 2012-09-26 | 임형준; 이재종; 최기봉; 김기홍 |
| PURPOSE: A roll imprint apparatus by a double stamp is provided to manufacture different combinations of nano and micro hybrid 3D fine shapes by using the double stamp comprising a roller stamp and a film stamp. CONSTITUTION: A fine structure is formed on a flexible substrate(120). A roller stamp(210) pressurizes the substrate in the vertical direction. A flexible stamp supply roll(221) supplies and collects a flexible stamp(220). A stamp unit is formed by including a flexible stamp collection roll(122). A hardening unit(300) includes the flexible stamp. A pattern is formed by laminating the roller stamp and the flexible stamp. A resist(500) spread on the substrate is filled on the flexible stamp. | ||||||
| 5 | 영상 기록 시스템 | KR1019900016432 | 1990-10-16 | KR100189664B1 | 1999-06-01 | 로날드제이.듀크 |
| 영상기록을 위한 시스템이 미세화된 캡슐을 활용하며 상기 미세캡슐은 영상 형성제 및 광경화성 합성물을 포함한다. 음극선관은 평행한 광섬유 어레이로부터 형성된 면판과 상기 면판의 내측 표면상에 제공된 인 코팅을 구비한다. 상기 음극선관은 상기 코팅에 대해 영상을 스크롤 하기 위해 상기 코팅 상에 영상을 기록하도록 제어된다. 영상시트는 지지되고, 상기 스크롤 속도와 동일한 속도로 편판을 지나 이동되며, 이에 의해 전체 영상이 상기 시트 상에 노출된다. 그러한 시스템을 완전한-칼라 영상에 적용하는 것도 또한 밝혀진다. | ||||||
| 6 | 프린터 | KR1019880006735 | 1988-06-04 | KR1019960012769B1 | 1996-09-24 | 유이야스지; 히타치아키오; 사토다츠루; 시라쿠라아키라 |
| 요약 없음. | ||||||
| 7 | 불균일 점착력을 가지는 점착테이프와 그 제조 장치 및 제조 방법 | KR1020100063263 | 2010-07-01 | KR1020120002651A | 2012-01-09 | 최성환; 김상필; 문기정 |
| PURPOSE: An adhesive tape is provided to easily induce crack opening between an adherent and adhesive layer, thereby preventing the damage of the adherent when detaching. CONSTITUTION: An adhesive tape having non-uniform adhesive force comprises a substrate film(B4) and an adhesive layer(B3) on one surface of the substrate film. The adhesive layer is separated to a relatively high adhesion region and a relatively low adhesion region. The difference of adhesion between the relatively high adhesion region and the relatively low adhesion region is at least 20%. The adhesion regions contains energy-curable component. | ||||||
| 8 | 롤프린팅/롤임프린팅용 롤 제조방법 | KR1020100125884 | 2010-12-09 | KR101037903B1 | 2011-05-30 | 장성환; 김재구; 윤재성; 유영은; 최두선 |
| PURPOSE: A method for manufacturing a roll for roll printing/roll imprinting is provided to reduce manufacturing time and costs by additionally forming an external part and combining the external part with the roll. CONSTITUTION: A substrate(110) is made for functioning as a mold when an external part(120) is formed. A mixture is formed by mixing liquefied polymer resin(122) with a ferromagnetic particle(123). The mixture is filled in the substrate which functions as a mold. The mixture is precisely filled in the pattern formed on the substrate by controlling the viscosity of the mixture. | ||||||
| 9 | 높은 규칙도를 갖는 양극 산화 알루미늄 템플릿 및 그제조방법 | KR1020070068182 | 2007-07-06 | KR1020090004180A | 2009-01-12 | 이두현; 서수정; 정근희; 임승규; 손진승; 이병규 |
| An anodized aluminum template, a method for preparing the anodized aluminum template, and a method for preparing a nanohole stamp by using the anodized aluminum template are provided to form the nanohole having the more regular arrangement. An anodized aluminum template(200) comprises an aluminum film(110); a guide line pattern which is formed on the aluminum film; and a porous aluminum oxide(120, 130) which is formed along the guide line pattern on the aluminum film and constitutes a plurality of nanoholes(h). | ||||||
| 10 | 처리액 공급 방법, 컴퓨터 기억 매체 및 처리액 공급 장치 | KR1020120122979 | 2012-11-01 | KR101760528B1 | 2017-07-21 | 요시하라고우스케; 후루쇼도시노부 |
| 간이한처리액공급장치를이용하여처리액내의이물을저감하여, 기판의결함을저감한다. 레지스트액공급장치(100)는, 레지스트액을저류하는레지스트액공급원(101)과, 레지스트액공급원(101)으로부터도포노즐(32)에레지스트액을공급하는공급관(102)과, 공급관(102)에설치되며, 레지스트액을일단저류시키는리퀴드엔드탱크(103)와, 공급관(102)에설치되며, 레지스트액을유통시키는펌프(104)와, 공급관(102)에설치되며, 레지스트액내의이물을포집하여이탈시키지않는필터(105)와, 공급관(102)에설치되며, 레지스트액의유통을차단하는트랩(106)과, 공급관(102)에설치된밸브(107)와, 공급관(102) 내를유통하는레지스트액을필터(105)에적어도 1회왕복통과시켜, 그레지스트액을도포노즐(32)에공급하도록펌프(104)를제어하는제어부(200)를가지고있다. | ||||||
| 11 | 산화규소 층의 증진된 치밀화 | KR1020137002226 | 2011-07-08 | KR1020130090880A | 2013-08-14 | 메네제스마론; 쑤프랭크와이; 완펜 |
| Densifying a multi-layer substrate includes providing a substrate with a first dielectric layer on a surface of the substrate. The first dielectric layer includes a multiplicity of pores. Water is introduced into the pores of the first dielectric layer to form a water-containing dielectric layer. A second dielectric layer is provided on the surface of the water-containing first dielectric layer. The first and second dielectric layers are annealed at temperature of 600° C. or less. In an example, the multi-layer substrate is a nanoimprint lithography template. The second dielectric layer may have a density and therefore an etch rate similar to that of thermal oxide, yet may still be porous enough to allow more rapid diffusion of helium than a thermal oxide layer. | ||||||
| 12 | 처리액 공급 방법, 컴퓨터 기억 매체 및 처리액 공급 장치 | KR1020120122979 | 2012-11-01 | KR1020130049732A | 2013-05-14 | 요시하라고우스케; 후루쇼도시노부 |
| PURPOSE: A processing liquid supplying method, a computer storage medium, and a processing liquid supplying apparatus are provided to reduce a defect of a substrate by preventing inner foreign materials. CONSTITUTION: A resist liquid supplying source supplies resist liquid. A supply tube supplies the resist liquid from the resist liquid supplying source to a spray nozzle. A pump(104) circulates the resist liquid. A filter(105) collects and separates foreign materials from the resist liquid. A trap(106) blocks the circulation of the resist liquid. | ||||||
| 13 | 재료 제거 및 패턴 전사를 위한 방법 및 시스템 | KR1020127021126 | 2011-01-27 | KR1020120125297A | 2012-11-14 | 슈미드제라드엠.; 밀러마이클엔.; 최병진; 레스닉다글라스제이.; 스리니바산시들가타브이.; 쑤프랭크와이.; 도날드슨다렌디. |
| 기판 위의 중합된 재료가 제어된 조성의 기상 분위기에서 에너지원으로부터의 진공 자외선(VUV) 방사선에 노출됨으로써 제거될 수 있다. 이러한 제거 후, 추가의 에칭 기술이 또한 나노 임프린팅을 위해 설명된다. | ||||||
| 14 | IMAGE FORMING DEVICE AND AN EXPOSURE MEMBER | PCT/US2005021982 | 2005-06-21 | WO2006002197A3 | 2006-12-14 | CAMP ALPHONSE DOMINIC |
| The present invention relates to an image-forming device (Fig. Ia) for processing photosensitive media (102). The photosensitive media is of the type that includes microcapsules that encapsulate imaging material such as coloring material. The image-forming device includes an exposure member that includes a digital projector that is adapted to simultaneously expose the full image area of media to be developed. | ||||||
| 15 | CARD PRINTING SYSTEM AND METHOD | PCT/US0331088 | 2003-10-02 | WO2004030916A3 | 2005-05-19 | HAAS DARREN W; HAUGEN I TONY; PAULSON BRADLEY A; INNES ROBERT J |
| The card printing system of the present invention includes a cartridge sub-assembly and a printer sub-assembly. The cartridge sub-assembly encloses a stack of horizontally positioned cards that have each been plied with photosensitive microcapsules. The printer sub-assembly interfaced with the cartridge sub-assembly to obtain a card from the stack. The printer sub-assembly then forms a latent image upon the photosensitive microcapsules upon the obtained card and develops that image by applying a mechanical pressure to the photosensitive microcapsules with a developer array. The develop array is a block containing a number spring-loaded developer balls. | ||||||
| 16 | Creating stencils using microencapsulated material | US10899972 | 2004-07-27 | US20060024487A1 | 2006-02-02 | Nelson Blish; Timothy Tredwell; Lee Tutt |
| An apparatus for creating stencils uses microencapsulated material (14) which comprises a printhead (32) for image-wise exposing of the microencapsulated material in a pattern which leaves unexposed an outline of stencil characters (60, 62). A roller ruptures (58) unexposed microcapsules and a chemical in the ruptured microcapsules weakens material outlining the stencil characters (60, 62). | ||||||
| 17 | Image forming device and method for processing photosensitive media having microencapsulated imaging material | US09597924 | 2000-06-19 | US06483575B1 | 2002-11-19 | Loretta E. Allen; Yongcai Wang; Stephen M. Reinke; Yeh-Hung Lai |
| An image forming device includes an imaging member for forming a latent image on a photosensitive medium and a pressure assembly for applying pressure to the photosensitive medium and develop images on the medium. The photosensitive medium comprises a plurality of microcapules which encapsulate imaging material such as coloring material. In a feature of the invention, a controller is responsive to sensed ambient conditions to control the amount of pressure applied to the medium and thereby control the amount of crushing force applied to the microcapsules. In a further feature, a flexible pressure strip is provided between a crushing roller of the pressure assembly and the media to prevent a marking of the media. | ||||||
| 18 | Printer, printing system, and printing method using print paper with photosensitive microcapsules applied thereto | US09094038 | 1998-06-09 | US06229558B1 | 2001-05-08 | Tatsuji Saigo; Takashi Maeda; Kazuo Wakabayashi; Kensuke Moritan; Saburo Imai; Shigeru Inagaki; Hidenori Fujioka; Yuji Hosoi |
| A printer has a printer body, a carriage for undergoing scanning movement over a print paper in a scanning direction, and a cassette removably connected to the printer body for storing print paper and having a code element indicative of photosensitive characteristics of the print paper. The print paper contains photosensitive microcapsules encapsulating a color developing material and a photo-curing material and has an image receiving layer for developing color by a reaction of the color developing material with the image receiving layer. The carriage has a light emitting element for emitting light of a preselected wavelength to which the photosensitive microcapsules are exposed to thereby form a latent image on the print paper. A photosensitive characteristics identifying mechanism is disposed on the carriage for reading the code element of the cassette to identify the photosensitive characteristics of the print paper. A light emission controller controls the intensity or the time period of emission of the light emitted by the light emitting element in accordance with the photosensitive characteristics of the print paper identified by the photosensitive characteristics identifying mechanism. A pressurizing mechanism applies mechanical pressure to the print paper after a latent image has been formed thereon to collapse the photosensitive microcapsules which were not exposed to the light emitted by the light emitting element and thereby develop the latent image by reaction of the color developing material in the photosensitive microcapsules with the image receiving layer. | ||||||
| 19 | Printing apparatus of photosensitive microcapsule type and image processing system using the same | US09277514 | 1999-03-26 | US06204914B1 | 2001-03-20 | Shigeru Inagaki; Hidenori Fujioka |
| A printing apparatus of a photosensitive microcapsule type comprises a chassis, a cassette for storing printing paper containing photosensitive microcapsules, a printing paper feeding device for intermittently feeding the printing paper in a feeding direction, and a printing paper pickup device for feeding the printing paper from the cassette to a preselected location from which the printing paper is intermittently fed by the printing paper feeding device. A scan shaft is mounted on the chassis for undergoing rotation about a rotational axis extending generally perpendicular to the feeding direction of the printing paper. A first spiral groove is formed in the scan shaft along a clockwise direction and has opposite ends. A second spiral groove is formed in the scan shaft along a counterclockwise direction and has opposite ends each connected to a respective end of the first spiral groove so that the first and second spiral grooves form a loop. A carriage is slidably mounted on the scan shaft for undergoing reciprocal movement along the scan shaft during rotation of the scan shaft. Light emitting diodes are disposed on the carriage for selectively irradiating onto the printing paper light corresponding to image data when the carriage is reciprocated along the scan shaft. A pressurizing device applies pressure to the printing paper to which light is irradiated by the light emitting diodes to collapse the photosensitive microcapsules contained in the printing paper to form an image on the printing paper. | ||||||
| 20 | Image forming device | US962330 | 1997-10-31 | US5893662A | 1999-04-13 | Koji Ito |
| The insertion and removal of an image forming unit, inserted into the storage bay of the enclosure of electronic equipment so that it can be removed, is made easy, and the clearance of paper jams and maintenance operations, etc., are facilitated. An outer case is fitted inside the storage bay, for accommodating hard disk drives, etc., of the electronic equipment (e.g., a computer), and an image forming unit is inserted into this outer case so that it can be removed. Slides for supporting the main case, so that it can slide backward and forward are provided at the bottom of the outer case. In the image forming process, a latent image is formed on the microcapsule sheet by dot-wise exposure with LEDs, after which pressure development takes place, whereupon a color image is formed on the microcapsule sheet. | ||||||
QQ群二维码
意见反馈
意见反馈